Schematic Diagrams and Service Manuals

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A schematic diagram of the physics of accretion in a stellar cluster. The gravitational potentials of the individual stars form a larger-scale potential that funnels gas down to the cluster core. The stars located there are therefore able to accrete more gas and become higher-mass stars. The gas reservoir can be replenished by infall into the large-scale cluster potential. Figure 39.3. A schematic diagram of the physics of accretion in a stellar cluster. The gravitational potentials of the individual stars form a larger-scale potential that funnels gas down to the cluster core. The stars located there are therefore able to accrete more gas and become higher-mass stars. The gas reservoir can be replenished by infall into the large-scale cluster potential.

Fig. 3.5 (a) Temperature distribution from 1.5 to 6 Earth radii, 40 hours after the impact, of particles originally in the impactor. Note that the temperatures exceed 2500 K at 5 Earth radii 34 . (b) Schematic diagram of the Earth-Moon at the same scale as (a), showing that the Moon formed in a high-temperature environment in this scenario 35 . Fig. 3.5 (a) Temperature distribution from 1.5 to 6 Earth radii, 40 hours after the impact, of particles originally in the impactor. Note that the temperatures exceed 2500 K at 5 Earth radii 34 . (b) Schematic diagram of the Earth-Moon at the same scale as (a), showing that the Moon formed in a high-temperature environment in this scenario 35 .

Figure 7.1 High filtration nephridia of annelids. a Sketch of the nephridium of Pontoscolex corethrurus, showing open nephridiostome, long and extensively folded tubules, and capacious bladder, opening to the exterior through a nephridiopore. From Goodrich (1945) b Schematic diagram of the nephridium of the common earthworm, Lumbricus terrestris, showing multiple loops that promote the reabsorption of salts. After Boroffka (1965) Figure 7.1 High filtration nephridia of annelids. a Sketch of the nephridium of Pontoscolex corethrurus, showing open nephridiostome, long and extensively folded tubules, and capacious bladder, opening to the exterior through a nephridiopore. From Goodrich (1945) b Schematic diagram of the nephridium of the common earthworm, Lumbricus terrestris, showing multiple loops that promote the reabsorption of salts. After Boroffka (1965)

Schematic diagram of kinematic and motor patterns common to initial prey capture events in many ray-finned fishes. The names of phases associated with kinematic events are indicated at the top. Note that phase names differ in the fish and tetrapod literature. For example, in tetrapods the compressive phase is referred to as the closing (or fast closing) phase. The preparatory phase has only been observed in a few taxa to date. Black bars indicate times when muscles are consistently active whereas gray bars indicate activity that is only intermittently present. Modified from Lauder and Reilly (1994). Figure 3. Schematic diagram of kinematic and motor patterns common to initial prey capture events in many ray-finned fishes. The names of phases associated with kinematic events are indicated at the top. Note that phase names differ in the fish and tetrapod literature. For example, in tetrapods the compressive phase is referred to as the closing (or fast closing) phase. The...

Schematic diagram illustrating the carbonate-silicate cycle. This cycle controls the atmospheric CO2 concentration over long time scales. Figure 8.2. Schematic diagram illustrating the carbonate-silicate cycle. This cycle controls the atmospheric CO2 concentration over long time scales.

A schematic diagram of the Earth's orbit. The eccentricity (greatly exaggerated in this diagram) is defined as the ratio e OF a, where a is the semimajor axis. By definition, the semimajor axis of the Earth's orbit is taken to be 1 AU. A circle has an eccentricity e 0 and for Earth e 0.0167. The closest and most distant points of a planet (comet or asteroid) from the Sun are called the perihelion and aphelion points. This diagram encapsulates Kepler's first law of planetary motion, which says that planetary orbits are elliptical, with the Sun located at one focus. This law applies equally to comets, asteroids, and Kuiper Belt objects indeed, it applies to any object that orbits around another under the influence of gravity. Figure 4.1. A schematic diagram of the Earth's orbit. The eccentricity (greatly exaggerated in this diagram) is defined as the ratio e OF a, where a is the semimajor axis. By definition, the semimajor axis of the Earth's orbit is taken to be 1 AU. A...

Fig. 8 Schematic diagram of Earth's biogeochemical cycles of volatiles, showing reservoirs (boxes) in the mantle, crust, oceans and atmosphere, and showing the processes (arrows) that unite these reservoirs. The vertical bars at right indicate the timeframes within which a volatile element or compound typically completely traverses each of the four sub-cycles (the HAB, SED, MET and MAN sub-cycles, see text). For example, C can traverse the hydrosphere-atmosphere-biosphere (HAB) sub-cycle typically in the time scale between 0 to 1000 years Fig. 9 Schematic diagram of geochemical cycles of volatiles on Mars, showing reservoirs (boxes) in the mantle, crust, oceans and atmosphere, and showing the processes (arrows) that unite these reservoirs. Such cycles on Mars differ from those on Earth in several respects, including the following Mars lacks standing bodies of water, atmospheric escape processes probably have exerted relatively larger effects, and subduction into the Martian mantle has...

The schematic diagram of a typical feedback system is shown in Figure 5.14. The signal input (In) goes to the amplifier A, and the output from the amplifier is sampled by a control device B, whose response is added back to the input channel at the point marked '' ''. If control device B reduces the amplified signal, then a negative feedback system is formed, and the output signal (Out) will tend to remain constant with time. On the other hand, if control device B is additive, then a positive feedback system is formed, and the output signal (Out) will increase indefinitely with time.

Figure 9.12 Low frequency variants with intermediate penetrance and disease. Schematic diagram illustrating the contrast between very rare variants with high penetrance classically found to be responsible for mendelian disease versus common variants with modest to low penetrance resolved in genome-wide association (GWA) scans of common disease. A third major group may be highly significant in determining disease susceptibility but to date is not detected well by either linkage analysis or genome-wide association scans. Redrawn and reprinted by permission from Macmillan Publishers Ltd Nature Reviews Genetics (McCarthy et al. 2008), copyright 2008.

Fig. 8.1 Schematic diagram of a spectrograph for measuring radial velocities (see the main text for a description of the principles involved) Fig. 8.1 Schematic diagram of a spectrograph for measuring radial velocities (see the main text for a description of the principles involved) Fig. 8.2 A schematic diagrams of the optics of the ELODIE spectrograph. The spectral dispersion is produced by the diffraction grating, while the orders are superimposed on the CCD by a grism (grating-prism) giving cross dispersion (After Baranne et al., 1996) Fig. 8.2 A schematic diagrams of the optics of the ELODIE spectrograph. The spectral dispersion is produced by the diffraction grating, while the orders are superimposed on the CCD by a grism (grating-prism) giving cross dispersion (After Baranne et al., 1996) To obtain such high spectral resolutions, the spectrograph consists of a diffraction grating and a crossed-dispersion system which allows the various orders from the grating to be superimposed...

Fig. 8.18 Schematic diagram of the CARLINA instrument. The gondola beneath the captive balloon carries the recombiner. The position of the whole assembly is controlled by cables Fig. 8.18 Schematic diagram of the CARLINA instrument. The gondola beneath the captive balloon carries the recombiner. The position of the whole assembly is controlled by cables

Schematic diagram of gape and hyoid kinematic profiles during prey transport in (A) Chamaeleo jacksonii, and (B) Ctenosaura similis. Note that the hyoid is protracted during the SO phase and retracted during FO. Modified from So etal. (1992) panel B after Smith (1984).

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